Access Full Article

Abstract

top
In this paper we propose to explore different dedicated hardware solutions in terms of area-speed trade-offs for computing-oriented fuzzy logic systems in the algorithmic abstraction level that fulfil the application requirements applying high level synthesis techniques. The main benefits of this proposal are the capability of selecting the best implementation for any application not being tied down to a predefined architecture, the use of the required number of hardware units and the reduction of the design cycle time. The results obtained in the control of a maximum power point of a photovoltaic plant are presented as an example.

@article{Martínez1999, abstract = {In this paper we propose to explore different dedicated hardware solutions in terms of area-speed trade-offs for computing-oriented fuzzy logic systems in the algorithmic abstraction level that fulfil the application requirements applying high level synthesis techniques. The main benefits of this proposal are the capability of selecting the best implementation for any application not being tied down to a predefined architecture, the use of the required number of hardware units and the reduction of the design cycle time. The results obtained in the control of a maximum power point of a photovoltaic plant are presented as an example.}, author = {Martínez-Torre, José Ignacio, Deschamps, Jean-Pierre, Fernández Centeno, Milagros}, journal = {Mathware and Soft Computing}, keywords = {Lógica difusa; Inteligencia artificial}, language = {eng}, number = {2-3}, pages = {319-330}, title = {Fast prototyping of computing-oriented fuzzy-logic systems.}, url = {http://eudml.org/doc/39164}, volume = {6}, year = {1999},}

TY - JOURAU - Martínez-Torre, José IgnacioAU - Deschamps, Jean-PierreAU - Fernández Centeno, MilagrosTI - Fast prototyping of computing-oriented fuzzy-logic systems.JO - Mathware and Soft ComputingPY - 1999VL - 6IS - 2-3SP - 319EP - 330AB - In this paper we propose to explore different dedicated hardware solutions in terms of area-speed trade-offs for computing-oriented fuzzy logic systems in the algorithmic abstraction level that fulfil the application requirements applying high level synthesis techniques. The main benefits of this proposal are the capability of selecting the best implementation for any application not being tied down to a predefined architecture, the use of the required number of hardware units and the reduction of the design cycle time. The results obtained in the control of a maximum power point of a photovoltaic plant are presented as an example.LA - engKW - Lógica difusa; Inteligencia artificialUR - http://eudml.org/doc/39164ER -